Telopea 13(3) 361–374
A brief history of the cryptogams of Fiji
and prospects for the future
Matt von Konrat1, Alifereti Naikatini2, Marika Tuiwawa2,
Lars Söderström3, Allan Fife4, Matt Renner5, Patrick Brownsey6,
Leon Perrie6, Anders Hagborg1, Tamás Pócs7,
H. Thorsten Lumbsch1, John Braggins8 Ana Séneca3,9, and
Elizabeth Brown5
1
Botany Department, The Field Museum, Chicago, Illinois 60605-2496, U.S.A.
South Pacific Regional Herbarium, Institute of Applied Science, Faculty of Science and
Technology, University of the South Pacific, Private Bag, Laucala Campus, Suva, Fiji
3
Department of Biology, Norwegian University of Science and Technology,
N-7491 Trondheim, Norway
4
Landcare Research, PO Box 40, Lincoln 7640, New Zealand
5
National Herbarium of New South Wales, Royal Botanic Gardens Sydney, NSW, Australia
6
Museum of New Zealand Te Papa Tongarewa, P.O. Box 467, Wellington, New Zealand
7
Botany Department, Eszterházy College, Eger. Pf. 43, H-3301, Hungary
8
Herbarium, The Auckland War Memorial Museum, Private Bag 92018, Auckland 1142,
New Zealand
9
Department of Biology, Faculty of Science, University of Porto, Rua Campo Alegre,
s/n, P-4169-007 Porto, Portugal
2
Abstract
A brief history of Fijian cryptogams, including bryophytes, ferns and lycophytes, and lichenised
fungi, is provided. Brief comments on the future prospects for the systematics and conservation
of these groups of organisms are provided. An overview of the six Fijian contributions is also
provided. In contrast to many other biodiversity hotspots, the current study highlights our
limited floristic knowledge of the Fijian cryptogams.
Introduction
The current issue of Telopea (volume 13, part 3) is dedicated to bryophytes, ferns and
lycophytes, as well as lichenised fungi from the islands of Fiji. These organisms all share
the common feature of being spore-bearing and traditionally their members have
been classified together and referred to as cryptogams. Although cryptogams do not
form a natural monophyletic group, they do share many ecological and physiological
traits, and are typically found together in moist habitats. For example, lichens and
bryophytes are relatively small organisms (when compared with most land plants) that
© 2011 Royal Botanic Gardens and Domain Trust
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often produce species-diverse mats over rock, soil, and tree bark; they are poikilohydric
and can survive periods of drought in non-metabolic stages (Bates & Farmer 2002,
Cornelissen et al. 2007). Bryophytes, ferns and lycophytes as well as lichenised fungi are
of ecological significance in a variety of ecosystems, and participate in key ecological
functions such as erosion prevention, plant succession, production of phytomass,
decomposition, and are primary producers in the cycling of carbon and nitrogen (Page
1979; Pócs 1980; Longton 1984, 1992; Coxson et al. 1992). Many of these organisms
contain compounds with useful biochemical properties such as anti-microbial, antifungal, cytotoxic, insect anti-feedant, and muscle relaxing activity (Soeder 1985;
Asakawa 1995, 2004). As a source of food and building material, ferns are an important
component of Fijian culture. Some notable examples include the use of Cyathea in
the construction of huts (Bure), and the consumption of palatable ferns (Ota) such
as Acrostichum aureum, Coniogramme fraxinea, Diplazium spp. and Tectaria degeneri
(Parham 1972).
Lichens are classified as fungi (predominately ascomycetes, Nash 2008) whereas
bryophytes are related to vascular plants, including ferns and lycophytes (Kenrick
& Crane 1997). Neither lichens nor bryophytes are monophyletic. Lichens are a
polyphyletic assembly of heterogeneous clades (e.g. Lutzoni et al. 2001, Miadlikowska
et al. 2006, Schoch et al. 2009). For bryophytes, there is a broad consensus that its
members are a paraphyletic grade of several distinct lineages; i.e. Marchantiophyta
(liverworts), Anthocerotophyta (hornworts), and Bryophyta (mosses) (e.g. Mishler
& Churchill 1984, Kenrick & Crane 1997, Shaw & Renzaglia 2004, Qiu et al. 2007).
Similarly, those plants historically classified as ‘pteridophytes’ and ‘ferns and fern
allies’represent a paraphyletic assemblage, including the lycophytes, horsetails, whisk
ferns, and all eusporangiate and leptosporangiate ferns (Smith et al. 2006).
Mittermeier et al. (2005) identified all the islands of Micronesia and Polynesia,
including the islands of Fiji, as one of 35 global biodiversity ‘hotspots’, often referred to
as the Polynesia-Micronesia hotspot. Conservation International (http://www.wdpa.
org, accessed 16 Aug 2011) considers the Polynesia-Micronesia hotspot the epicenter of
the current global extinction crisis. Geographically, the islands belong to Melanesia, a
subregion of Oceania, which includes New Guinea, the Solomon Islands, Vanuatu, New
Caledonia and Fiji but phytogeographically some regard the Fiji group as belonging
to Eastern Melanesia with an obvious transition towards Polynesia(Mueller-Dombois
& Fosberg 1998). The Fiji Islands comprise a mountainous archipelago of over 300
islands of varying sizes, in the tropical south-west Pacific with a land area of 18 376
km2, approximately half of which is covered in rain forest (DoE 1997, Heads 2006). The
tropical moist forests of Fiji contain the richest and most distinct natural communities
of all the oceanic islands of the Pacific, with the exception of New Caledonia (World
Wildlife Fund), and more than 60% of the Fijian seed plant flora is considered endemic
(Watkins 1994, Heads 2006). Fiji has a complex geology, which is determined by its
position between two subduction-zones of opposite polarity, the Vanuatu and Tonga
Trenches, in what is currently a region of transform faulting (Heads 2006).
The distribution of many Fijian species can be localised to single islands or mountains,
this being a factor regarding vulnerability to human disturbance (Davis et al. 1995).
Loss and/or degradation of characteristic ecosystems such as mangroves and lowland
rainforest is a consequence of years of logging and land clearing to make way for
plantation forests, other agricultural practices, and human habitation (Watling
& Chape 1992). Keppel (2005) suggested that there is much to learn regarding the
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Telopea 13(1): 2011
363
composition and distribution of plant communities in many areas of Fiji, the urgency
of which is compounded when one considers only 1.4% of Fiji is under some form
of environmental protection (World Database on Protected Areas, http://www.wdpa.
org, accessed 16 Aug 2011). However, the situation is even worse for bryophytes and
lichenised fungi. The lack of comprehensive baseline data is exemplified by the total
absence of data for bryophytes and lichens in the National Report prepared by the
Fijian Department of the Environment (DoE 1997), along with subsequent reports
as part of the Convention on Biological Diversity, despite data being produced for
vascular plants, invertebrates, birds, and animals.
Brief history of cryptogam exploration
The Fijian islands were not visited by the British and French expeditions of the 18th and
early 19th centuries (Brownlie 1977). The earliest major western botanical exploration
was by the United States Exploring Expedition in 1840 (Brownlie 1977), which was
largely prompted by a desire to obtain information on the South Pacific, an area that
was rapidly becoming of interest to American traders and whalers (Engel & Glenny
2008). As noted by Brownlie (1977), none of the explorers in the 18th century, and very
few in the early 19th century limited themselves to the study of particular plant groups;
thus ferns along with other cryptogams were included due only to the non-specific
nature of the botanical collecting. One of the earliest and most significant floristic
works devoted to Fiji was Flora Vitiensis which was published in ten parts (with colour
plates by Walter H. Fitch) and included many new plant genera and species (Seemann
1865–1873). German botanist Berthold Carl Seemann produced the first issue in 1865;
nine parts were written by him, but unfortunately Seemann died before the completion
of the tenth part, in which he intended to deal with the cryptogamic plants. The final
part was instead authored by W. Carruthers (ferns), J. M. Crombie (lichens) and W.
Mitten (bryophytes) and issued in 1873 (Stearn 1963).
Bryophytes — Very few publications have focused solely on bryophyte collections
from Fiji, especially when compared to all other land plant groups. Moreover, there
have been very few bryophyte collections made in Fiji since the end of the Second
World War (after 1945).
Based on 1840 collections made by W.D. Brackenridge, the botanist of the United States
Exploring (Capt. C. Wilkes) Expedition, Schultze-Motel (1974) noted that the earliest
published records of Fijian mosses are apparently those of Sullivant (1854, 1859).
Other early collections were made by W. Milne (of the Herald expedition under Capt.
Denham) in 1856 and by Seemann and Graeffe (c. 1860). All these were incorporated
into Mitten’s (1873a) treatment of the mosses in Seemann’s Flora Vitiensis. In the
20th century, Lillian Gibbs (as quoted by Dixon & Greenwood, 1930) reported on
montane mosses collected in 1907 from near Tomanivi (Mt Victoria), Viti Levu. From
1917 onwards significant collections from Viti Levu, Vanua Levu, and Ovalau Islands
were made by William Greenwood. Greenwood’s collections, together with those of a
number of less prolific collectors, were summarised in the still useful paper by Dixon &
Greenwood (1930) and, after Dixon’s death, Greenwood (1945) presented a subsequent
paper. Collections by A.C. Smith, made mostly from out-lying islands between 1933 and
1948, O. Degener’s collections of 1940–41, and some residual Greenwood collections
formed the basis of a series of papers by the American bryologist E.B. Bartram spanning
more than two decades (e.g. Bartram 1936, 1948, 1956). These publications form the
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von Konrat et al
core of our current knowledge of the islands’ moss flora. They were incorporated into
both Katalog der Laubmoose von Melanesien (Schultze-Motel 1974) and A preliminary
list of Fijian mosses (Whittier 1975). Whittier’s list, compiled from literature reports,
recorded 306 species and varieties in 106 genera from Fiji. Prodromus Florae Muscorum
Polynesiae (Miller et al. 1978) also incorporated literature records from Fijian islands.
It also included an extremely useful key to the genera recorded from its wide area
of coverage. Eddy’s (1988, 1990, 1996) uncompleted series, A Handbook of Malesian
Mosses, flora is another valuable resource for the study of Fijian mosses.
Subsequent Fijian collections seem to have been primarily by M. Higuchi and Z. Iwatsuki
in 1982 and 1991–92 (see Matsui & Iwatsuki, 1993) and S. & T. Pócs in 2003. A few of
Pócs’ collections are cited in Pócs et al. (2011, this issue) but many of them remain
unstudied. Valuable collections made during trips (Fig. 1, Table 1) by authors of the
current paper, i.e. E. Brown, M. Renner, M. von Konrat, J. Braggins, A. Fife and others
have also yet to be critically revised, but initial processing indicates many novelties.
The Fijian moss flora remains extremely poorly collected and a very large fraction of
the species recorded in the past have not yet been critically evaluated. Bartram’s (1936)
opinion that “further explorations, especially in the higher regions of central Viti Levu”
would expand this number considerably remains true today. This is evident with Fife &
Naikatini (2011, this issue) recording nine new distributional records for Fiji.
Many of the earliest publications of Fijian liverworts and hornworts were based on
collections made by Brackenridge, Milne and Graeffe. Mitten (1861, 1862) described a
few new species from Fiji, and afterwards provided a more detailed treatment as part of
Flora Vitiensis (Mitten 1873b). Later, Jack and Stephani (1894) described several new
species based on collections made by Graeffe. Gibbs (1909) reported on 21 liverworts
and 2 hornworts from Viti Levu, thus adding many new records to Fiji.
The last significant report on Fijian liverworts and hornworts was produced by
Campbell (1971), and was based on collections made by A.C. Smith and W. Greenwood.
At that time, Campbell stated that there were still few collections from Fiji, and hoped
her work would provide an impetus for further studies. Miller et al. (1983) published
a comprehensive checklist of liverworts and hornworts from the tropical islands of
the Pacific, including those of Fiji. This work was based on a compilation of literature
and served as a first step towards making knowledge about Pacific island bryophytes
more accessible. Miller et al. (1983) concluded that the bryophyte flora of the tropical
Pacific islands was poorly known and much work remained to be done to produce
a useful Flora for the region. There does exist a scattering of publications that have
included collections from Fiji as part of other broader geographical, monographic
and revisional studies (e.g. the series of papers published by H. Hürlimann on the
Hepaticae of Southern Pacific in 14 parts between 1960 and 1998; Eddy 1988, 1990,
1996; Hattori 1985; Iwatsuki & Suzuki 1996; Matsui & Iwatsuki 1993; Schuster & Engel
1985; Thiers 1993; So 2002; von Konrat et al. 2006), but these only cover a fraction of
the flora represented in the region.
Ferns and lycophytes — Early works included those of W. Carruthers who provided
a synopsis of the ferns, in Seemann’s Flora Vitiensis, and Brackenridge (1854) who
provided an enumeration and description of all the ferns collected during the voyage
of the United States Exploring Expedition between 1838 and 1842. Brownlie (1977)
noted that Brackenridge reported almost half of the now known flora, which was
remarkable considering the difficulties of inland travel at that time. Brownlie (1977)
A brief history of cryptogams of Fiji and their prospects
Telopea 13(1): 2011
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provided a detailed discussion of the different periods of botanical expeditions, major
publications of pteridophytes relating to Fiji and a comprehensive treatment of the
group. He treated substantially, c. 30%, more taxa than Copeland (1929) had dealt with
(Godley 2000). Since publication of Brownlie’s work, 29 species have been added to
the Fijian fern flora (Brownsey & Perrie 2011, this issue). During the last 25 years, as
in bryology and lichenology, there have been few publications devoted to ferns of Fiji,
and many have been part of larger treatments. Some noteworthy publications during
that time include Parris (1994), Kramer & Zogg (1988), Kato (1984), Gardner (1997)
and Brownsey (1987).
Lichenised fungi — Crombie noted that it was regrettable that the few botanical
collectors who had visited Fiji, as in many other regions at the time, “paid so little
attention to this interesting class of cryptogams” and that a “rich harvest awaits the
researchers of future collectors” (Seemann 1865–1873). Indeed, over 140 years later the
lichen flora of Fiji remains extremely poorly known (Lumbsch et al. 2011b, this issue).
Very early works on lichens in Fiji include Crombie’s enumeration of seven lichen
species as part of Seemann’s Flora Vitiensis (1865–1873)¸ and Krempelhuber (1868)
who listed several species in a paper on lichens from the South Pacific with a later
record of additional species from Fiji (Krempelhuber 1873). Over recent years, only a
few studies have focused specifically on Fijian lichens (Archer 2004, Elix 2001, Lücking
et al. 2010, Lumbsch et al. 2009, McCarthy & Elix 2000, Molho et al. 1981). A recently
updated checklist of Fijian lichens includes data on 159 species (Elix & McCarthy 1998,
2008).
Enduring impediments
For many groups of organisms there exists a large amount of nomenclatural and
distributional data dispersed throughout the literature, as well as undatabased and
undocumented information. Together with the lack of critical evaluation of specimens,
this presents a major impediment for the documentation and analysis of species
richness and distribution patterns, and conservation research at both regional and
global scales (von Konrat et al. 2008). However, for some organisms, there has been
a strong effort toward synthesizing this information, e.g. http://www.mycology.net —
an internet portal for scientists presenting information about the diversity of fungi,
and the Early Land Plants Today (ELPT) project — an international consortium of
scientists working towards uniting biological data for liverworts and hornworts (von
Konrat et al. 2010).
Two kinds of error are often associated with early exploration of the Pacific (and other
tropical areas). These have, on occasion, been propagated in the literature by subsequent
regional treatments. First, many taxa were identified uncritically as European taxa
under various names that are still the basis for many reports, although some have
subsequently been rejected. For example, Riccardia chamedryfolia is a boreal taxon
reported from many areas of the tropics including the Pacific. It was reported from
Fiji by Schiffner (1890; as Aneura pinnatifida) but that is now rejected (Söderström et
al. 2011, this issue). However, for several other taxa, we do not know what they really
represent, since we lack recent studies for the area (e.g. Aneura pinguis; Söderström et
al. 2011, this issue). Secondly, participants on several early expeditions were not very
exact in labelling their collections and many specimens now bear erroneous locality
details. For example, William Milne who was the botanist collecting on the HMS
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von Konrat et al
Table 1. Brief description of general area and elevation providing an impression of
major collecting sites discussed in Fife & Naikatini (2011), Lumbsch et al. (2011b) and
Pócs et al. (2011), (all this issue). Precise locality details are provided in the above
papers.
Site See authors
no. (this issue)
Island
Year
collected
Brief description of general area and
elevation (elev.)
1
Pócs et al.
Viti Levu
2003
Margin of Nausori Highlands, secondary
submontane rainforest, 600–620 m elev.
2
Pócs et al.
Viti Levu
2003
Southern coast (“Coral Coast”), coastal forest
vegetation and lowland fragmented forest, sea
level to 60 m elev.
3
Pócs et al.
Viti Levu
2003
North-eastern coast, mosaic of dry semideciduous forest, mangrove forest, sea level to 60
m elev.
4
Fife & Naikatini
Lumbsch et al.
Pócs et al.
Viti Levu
2003,
2008
5
Pócs et al.
Viti Levu
2008
Central Highlands, Rairaimatuku Plateau,
Monasavu area, Alphitonia–Homalium–
Metrosideros–Scaveola–Cyathea cloud forest with
emergent Dacrydium, 900–1050 m elev.
Naquaranibuluti Nature Reserve, track to Mt
Lomalagi, mesic and dry evergreen forest with
emergent Podocarpus neriifolius and Agathis
vitiensis, 875 m elev.
6
Fife & Naikatini
Viti Levu
2007
Mt Korobamba, lower slopes, partly shaded
volcanic rock in moderately disturbed lowland
rainforest with Spathodea, Ficus, Cyathea, and
Dicksonia, 75 m elev.
7
Fife & Naikatini
Viti Levu
2007
Headwaters of the Nabukavesi R., second-growth
lowland rainforest dominated by Trichospermum
and Endospermum, with Cyathea and Angiopteris
understorey, c. 100 m elev.
8
Fife & Naikatini
Viti Levu
2007
Mt Voma, exposed vertical basalt rock face,
seepage areas, 800 m elev.
9
Pócs et al.
Taveuni
2003
SE coast, Wainisari Beach near estuary of
Wainibau Stream, rocky (volcanic) coastal forest
with tree-ferns, intercropped by Cocos nucifera).
4–10 m. elev.
10
Pócs et al.
Taveuni
2003
Vicinity of Tavoro Waterfall, cultivated area and
degraded lowland rainforest, 10–100 m elev.
11
Fife & Naikatini
Lumbsch et al.
Pócs et al.
Taveuni
2008
NW slope of Des Voeux (Devo) peak, montane
mossy forest, 900–1100 m elev.
12
Pócs et al.
Kadavu
2003
Central part of island, along the Namara Road,
slopes of secondary lowland rainforest on lilac
volcanic soil, 120–165 m elev.
13
Pócs et al.
Kadavu
2003
Western part of island, slopes and summit of
Koroniquala Hill, mesic submontane rainforest
with tree-ferns, 250–370 m elev.
14
Pócs et al.
Vanua Levu
2006
Coastal mangrove forest, on the outskirts of
Labosa, sea level–5 m.
15
Pócs et al.
Vanua Levu
2006
Waisali Dakua National Trust Forest Reserve,
dominated by Agathis macrophylla, to 450 m
elev.
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Telopea 13(1): 2011
367
N
Fig. 1. An overview of major sites on the islands Viti Levu, Vanua Levu and Taveuni visited
between 2003 and 2008 by bryologists and lichenologists in the current issue. See Table 1 for a
brief description of general area and elevation. Inset of Oceania.
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Telopea 13(3): 2011
von Konrat et al
Challenger expedition (1872–1876) that made several visits to Fiji was “apparently a
keener collector than he was presser, labeller and cataloguer of plants during the voyage,
a fact that probably contributed to his forced resignation at the instigation of Hooker”
(Meagher 2003). One example of a report that is probably misplaced is the type of
Sphagnum weberi Warnst., said to come from Samoa, but there is no locality there to
fit the labelling. It seems most likely that the specimen is not from Samoa and could
actually be from New Guinea (Séneca & Söderström 2011, this issue). Another problem
is the frequent confusion of islands and archipelagoes by the botanists who identified
the plants, but had never been to the Pacific and were unfamiliar with the region.
Common examples of this kind of confusion are the locality details ‘Samoa, Ovalau’,
which confuses a Fijian island with the Samoan archipelago, or even worse, ‘Fiji, Oahu’,
which confuses a Hawaiian Island with the Fijian archipelago. The latter case might be
explained if ‘Oahu’ is actually a misprint of ‘Ovalau’, a Fijian Island. Another example is
that Mitten (1873a, b) sometimes refers to Hawaii as the Sandwich Islands, and other
times as Hawaii, suggesting that he did not know that they are the same.
Prospects for the future
It is clear that Fijian ferns, bryophytes, and lichenised fungi have been overlooked
historically, compared to seed plants, birds, and other organisms in Fiji, forming
a remarkable gap in the flora of Fiji. Moreover, the state of our floristic knowledge
of these organisms is deficient compared to many other biodiversity hotspots and
other ecologically significant areas of the globe. This is particularly alarming as
Conservation International identified the islands of the South Pacific as the “epicenter
of the global extinction crisis”, largely because of the high proportion of extinct species
and habitat loss (http://www.conservation.org/where/priority_areas/hotspots/asiapacific, accessed 16 Aug 2011). The flora of the Fijian islands has also received very
little attention in comparison to the two developed countries of the South Pacific —
Australia and New Zealand — as well as other large islands in the region, e.g. New
Caledonia. Dedicated study of cryptogams from Fiji would thus increase the regional
knowledge of these elements of the flora.
The immediate future looks promising as several international and national agencies
have recently identified and financially supported the critical need to investigate these
organisms, e.g. Conservation International, National Geographical Exploration and
Research, the New Zealand Agency for International Development and the Warwick
Foundation. Funding opportunities also present a strong foundation to develop and
foster capacity building with Fijian scientists, which is essential to the long-term
sustainability of documenting the biodiversity of cryptogams across the islands. It
seems evident from the 180 new records, and the recent discovery of species new to
science, that the islands of Fiji require further botanical exploration (e.g. Pócs 2008a, b;
Pócs et al. 2011, this issue; Lumbsch et al. 2010, 2011b, this issue).
Their vast morphological diversity, phylogenetic importance, and key roles in the
ecosystems of the world, make bryophytes, lichens and ferns useful objects of study in
many interesting and new avenues of study. Continued field programs and collecting
activities focused on these organisms will have broad ramifications. Carefully designed
research in Fiji has the potential to serve as a model for similar survey work in other
islands of the South Pacific, help develop local scientific expertise, and greatly facilitate
study of these organisms beyond taxonomy and biodiversity, such as their application
A brief history of cryptogams of Fiji and their prospects
Telopea 13(1): 2011
369
to conservation. Development of local scientific expertise and capacity-building will be
particularly important in enhancing research on these overlooked organisms. Training
of, and collaboration with, scientists in Fiji will enable them to make scientifically
informed assessments of different ecosystems, and contribute to training programs in
applications of these organisms to conservation science. The islands of Fiji represent
areas of varying geological ages and history and provide a promising venue for the
study of biogeographical patterns of selected cryptogam groups. Bryophyte species
composition and their distribution over time have been used in the past to determine
the size and shape of forest patches necessary for the maintenance of interior forest
conditions (Sillet et al. 1995) and as potential indicators of large scale changes to an
ecosystem (Gignac 2001). Field programs in Fiji could also contribute to exploring
the functional role of cryptogams in tropical ecosystems, their use and application as
bioindicators of forest degradation, land use change, and conservation.
Synopsis of current issue
The lack of data for cryptogams in Fiji is significant and thus the papers presented
in this issue of Telopea are of particular importance. The issue contains six papers
on Fijian cryptogams, two focused on mosses, two on liverworts and hornworts, one
devoted to ferns and another to lichenised fungi. Séneca & Söderström on Sphagnum,
provide an overview of the six taxa recorded for the Pacific Islands (two from Fiji) and
there is a report on 17 interesting mosses from Fiji by Fife, including new distributional
information for nine species. Pócs et al. provide a report of 48 species of liverworts new
to the Fiji Islands and new island distributions for an additional 39 taxa. Söderström
et al. provide a detailed and comprehensive checklist of liverworts and hornworts
including 289 taxa, with annotations and notes; a vital entry point to assess the
biodiversity of these organisms in all future studies. An annotated and revised checklist
of 331 species of Fijian ferns and lycophytes is presented by Brownsey & Perrie, the first
updated checklist published in over three decades. Lumbsch et al. report 66 lichenised
fungi species from the Fijian archipelago for the first time, including a remarkable 19
additional genera. Diagnostic features and distribution areas are given for each species.
We anticipate the issue will contribute to further research as well as assisting more
students in the study and enjoyment of these intriguing organisms.
Two papers on Australian bryophytes also provide an interesting perspective on
the state of knowledge in a more resourced and studied country from the region.
Ramsay summarises current knowledge on meiotic chromosome numbers; some 180
collections, comprising 80 species in 57 genera of Australian mosses. Renner provides
valuable range extension and new records for seven taxa of Lejeuneaceae.
Acknowledgments
The financial assistance of the National Geographic Committee for Research and
Exploration (Grant No. 8247-07), GBIF Seed Money Award No. 2007/41, Critical
Ecosystem Partnership Fund, Warwick Foundation, the New Zealand Agency for
International Development and an anonymous donor are gratefully acknowledged. The
authors also gratefully acknowledge the anonymous referees who greatly improved the
paper.
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von Konrat et al
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